Surgical Correction of Genitourinary Disorders Using the Self-Assembly Tissue Engineering

Abstract: Urologic and gynaecologic patients often manifest congenital and/or acquired tissue and organ dysfunctions that require surgical reconstruction to recreate the normal genitourinary system functions. Such reconstruction is still a challenge due to the limited availability of suitable tissues, especially for severe urethral and vaginal replacement. Traditional intervention methods have varying degrees of donor site morbidity or inherent side effects. Interestingly, tissue engineering is a growing field that aims… Show more

“…Because of high risk of immunologic rejection and public health risk concerns, animal tissue transplant in humans is greatly limited [ 76 , 77 ]. Cell culture overcomes many graft limitations, like the lack of healthy tissue from a donor site, by allowing the growth of autologous and physiologically relevant tissues for grafts [ 78 , 79 ].…”

“…Lack of vasculature: The absence of vascularization in engineered tissue is a disadvantage for tissue transplants since it is a significant reason for poor graft take [ 93 ]. The development of endothelial capillaries within 3D engineered tissues could improve graft take [ 94 , 95 ] and contribute to creating a more relevant tumour microenvironment for cancer study models or studying angiogenic functions [ 78 , 96 , 97 ].…”

“…Lack of interaction with the immune system: A significant drawback of all in vitro models is that the created microenvironment does not include immunologic components, thus contributing to the gap between in vitro and in vivo models. The incorporation of immune cells and lymphatic capillaries to make cancer models more relevant is still a challenge but seems like a reachable objective [ 78 , 96 ].…”

Innovative Human Three-Dimensional Tissue-Engineered Models as an Alternative to Animal Testing

“…Because of high risk of immunologic rejection and public health risk concerns, animal tissue transplant in humans is greatly limited [ 76 , 77 ]. Cell culture overcomes many graft limitations, like the lack of healthy tissue from a donor site, by allowing the growth of autologous and physiologically relevant tissues for grafts [ 78 , 79 ].…”

“…Lack of vasculature: The absence of vascularization in engineered tissue is a disadvantage for tissue transplants since it is a significant reason for poor graft take [ 93 ]. The development of endothelial capillaries within 3D engineered tissues could improve graft take [ 94 , 95 ] and contribute to creating a more relevant tumour microenvironment for cancer study models or studying angiogenic functions [ 78 , 96 , 97 ].…”

“…Lack of interaction with the immune system: A significant drawback of all in vitro models is that the created microenvironment does not include immunologic components, thus contributing to the gap between in vitro and in vivo models. The incorporation of immune cells and lymphatic capillaries to make cancer models more relevant is still a challenge but seems like a reachable objective [ 78 , 96 ].…”

Innovative Human Three-Dimensional Tissue-Engineered Models as an Alternative to Animal Testing